Fourier Series and Boundary Value Problems (Brown and Churchill) | 
| Authors: James Brown, Ruel Churchill
Publisher: McGraw-Hill Science/Engineering/Math
Category: Book
Buy New: $103.93
New (16) Used (11) from $99.50
Avg. Customer Rating:  2 reviews
Sales Rank: 796373
Media: Hardcover
Edition: 7
Number Of Items: 1
Pages: 384
Shipping Weight (lbs): 1.7
Dimensions (in): 9.5 x 6.6 x 1
ISBN: 0073051934
Dewey Decimal Number: 515.2433
EAN: 9780073051932
ASIN: 0073051934
Publication Date: August 28, 2006
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Condition: New unread Hardcover in excellent Mint condition. 7th Edition, McGraw-Hill Science/Engineering/Math; ISBN: 0073051934, Copyright 2008. For the price of Media Mail, we will ship immediately with expedited/Priority Mail and free tracking number!!! We ship daily. A51
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Product Description
Published by McGraw-Hill since its first edition in 1941, this classic text is an introduction to Fourier series and their applications to boundary value problems in partial differential equations of engineering and physics. It will primarily be used by students with a background in ordinary differential equations and advanced calculus. There are two main objectives of this text. The first is to introduce the concept of orthogonal sets of functions and representations of arbitrary functions in series of functions from such sets. The second is a clear presentation of the classical method of separation of variables used in solving boundary value problems with the aid of those representations. .
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| Customer Reviews:
WOW! December 17, 2007
1 out of 1 found this review helpful
So you're familiar with my background, I received a B.S. in Astrophysics and now I am a first year graduate student in an Applied Math program. I used this book as a supplementary resource when studying Partial Differential Equations - we got to Separation of Variables and then to Fourier Series. Every Physics student who graduates today has at least seen a Fourier Series (I hope). I didn't feel confident in my abilities so I bought this book to review.
Let me tell you, if this is your first time hearing about Fourier Series then this book is simply the BEST book to learn Fourier Series and much of the beautiful underlying theory behind Fourier Analysis! It's so well written and clear that I had absolutely no trouble following the text. I cannot express how clear and beautifully it is written, it is extremely rare for a math book at this level to be so vivid and eloquent! The proofs are easy to follow and the problems ease you into the subject presented in each section; which, in turn, are "bite-sized" and manageable. I studied the material by myself and walked away knowing Fourier Series.
There are plenty of good examples, the problems are great! If you're self-studying (or not) do as many of the problems as you can; if you read the previous two or three sections you should have absolutely no trouble going through the problems. Applications galore!
NOTE: This book isn't written at the graduate level, don't shy away from it because I mentioned being a grad student, I just wanted a review of Fourier Series. If I had to rate the level of the book I would say it's at a beginning upper-division level of a typical american university. If you've had a decent multi-variable calculus class, and are comfortable with partial derivatives, this book should be very comprehensible. It's clearer still to physics majors (or the like) who are more familiar with what and where specific equations apply to.
This book is beautiful, and I think it should be required reading of every physics and applied math student everywhere (maybe I'm just a little biased).
The ONLY caveat is that the Fourier Complex Series is left to problems, we don't get to use them to learn theory and get more comfortable with. This is okay since the cosine and sine series are equivalent to the complex series, it's just that the complex series is more elegant when doing problems or proving things.
excellent textbook May 2, 2007
If you are an advanced undergraduate student or a begining graduate student and want to learn not only the concepts behind Fourier Series but see how it can be applied to boundary value problems of mathematical physics, then this is "the" book you should read. It is well written - easy to understand and illustrated with lots of examples.
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